Two batteries of nominal voltage 12 V are connected to a charger as shown in the figure below. The charger has an open-circuit voltage of 14 V and an internal resistance of 1.2 ohms. Before being placed on charge one battery (A) has an open circuit voltage (OCV) of 12.1 V and an internal resistance of 0.1 Ohms; the other battery (B) has an open circuit voltage of 11.9 V and an internal resistance of 0.15 Ohms. At the end of the charging period the OCV of battery (A) rises to 12.6 V, and the OCV of battery (B) rises to 12.5 V. Assuming that the internal resistances of the batteries do not change during charging, and that batteries and charger can be represented by linear voltage sources, determine: the final charging currents flowing through Battery B. Enter your answer in Amps (no sign) I need to show all work step by step

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Two batteries of nominal voltage 12 V are connected to a charger as shown in the figure below. The charger has an open-circuit voltage of 14 V and an internal resistance of 1.2 ohms. Before being placed on charge one battery (A) has an open circuit voltage (OCV) of 12.1 V and an internal resistance of 0.1 Ohms; the other battery (B) has an open circuit voltage of 11.9 V and an internal resistance of 0.15 Ohms. At the end of the charging period the OCV of battery (A) rises to 12.6 V, and the OCV of battery (B) rises to 12.5 V. Assuming that the internal resistances of the batteries do not change during charging, and that batteries and charger can be represented by linear voltage sources, determine: the final charging currents flowing through Battery B. Enter your answer in Amps (no sign). + Battery A + Charger Тв Battery B